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Subaru Explorations of Exoplanets and Disks with its IR Coronagraph

Subaru Explorations of Exoplanets and Disks with its IR Coronagraph. in Shanghai 2009.7.23 9:00-9:30 Motohide Tamura National Astronomical Observatory of Japan. Talk Outline 0. Subaru 8.2m telescope - 10 years’ anniversary

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Subaru Explorations of Exoplanets and Disks with its IR Coronagraph

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  1. Subaru Explorations of Exoplanets and Disks with its IR Coronagraph in Shanghai 2009.7.23 9:00-9:30 Motohide Tamura National Astronomical Observatory of Japan

  2. Talk Outline 0. Subaru 8.2m telescope - 10 years’ anniversary 1. Science Highlights of the Subaru 1st generation high-contrast instrument (CIAO) including: - Diversity of morphology of protoplanetary disks - Detection of various low-mass companions 2. Subaru 2nd generation high-contrast instrument and its science plan - HiCIAO & SEEDS 3. Summary See Narita’s poster for other Subaru data on exoplanets See Kandori, Kusakabe, Hashimoto for IRSF 1.4m + uniue wide-field IR-POL data on brown dwarfs Subaru/HiCIAO image

  3. Subaru has an AO Coronagraph since 2001 • CIAO + 36-actuator AO at Cass. • First dedicated cold coronagraph on 8-m telescopes • Fully cold (<80K), optimized at K-band Compact disk around massive YSOs Protoplanetary disks around low-mass stars Young very low-mass Companion

  4. Subaru+CIAO+AO36 Science Summary • Disk - morphological diversity of young and debris disks • AB Aur: spiral structure in protoplanetary (PP) disk revealed (Fukagawa et al. 2004). • HD142527: new-type of PP disk morphology discovered (Fukagawa et al. 2006) & imaging of ice (Honda et al. 2009). • FN Tau: first PP disk around lowest-mass (0.1 Mo) star directly imaged (Kudo et al. 2007). • Beta Pic: First NIR polarimetry with coronagraph revealed nature of debris disk dust (Tamura et al. 2006). • Binary disks: GG Tau, UY Aur, etc. (Itoh, Hioki, Mayama) • Exoplanets/brown dwarfs - new types of companions? • DH Tau, GQ Lup, EK60: "boundary objects" between planets and brown dwarfs around T Tauri stars discovered (Itoh et al. 2005; Neuhauser et al. 2005; Kuzuhara et al. 2009). • HR8799b directly imaged in 2002 (Fukagawa et al. 2009). • Massive star disk - evidence for formation by accretion • BN, S140IR, IRAS23033, S255IRS1&3, N7538IRS1 : Ubiquity of compact disks around massive revealed with polarimetry (at least up to ~10 Mo) YSOs (Jiang et al. 2005, 2007).

  5. 100 AU Oppenheimer+08 Spiral-shape disk around 2Mo-4Myr Herbig Ae star: AB Aur Fukagawa, Hayashi, Tamura+2004, ApJ 12CO Velocity field Corder+2006 OVRO fainter • disk with spiral arms (r=450 AU) • trailing arm ← com. w/radio data + brighter forward scattering • no nearby companions in our images; but see Oppenheimer+08 star brighter near-side 1.6 μm flared disk (d=144 pc) 700 AU 1000 AU Grady+1999

  6. Submm follow-up and planet formation scenario revisited Gravitational instability? (instability condition): Probably supplies of matter from the envelope maintain the weak instability. ⇒ Q ~ 2; “weak” instability A suggestion of planet formation by gravitational instability? (for some systems) Matsuo+2007, ApJ Also note recent imaging discovery of outer (>10AU) planets around A stars (Marois+09; Kalas+09). White contours: 345 GHz dust continuum (SMA) Lin+2006, ApJ Mdisk ~0.15M

  7. NEW type of disk: HD142527 – banana split Herbig Ae star in Lupus (d=200pc) 1550 AU disk gap central gap disk asymmetry confirmed at MIR λ=1.65 micron Subaru/CIAO (Fukagawa+2006, ApJ) λ=24.5 micron Subaru/COMICS (Fujiwara+2006, ApJ)

  8. Where is the snow line in protoplanetary disks? Honda+2009, ApJ

  9. 140AU No feature =145AU • ice absorption everywhere • T(dust)=82-85K (by MIR; Fujiwara+2006) • cold enough • Snow line is at much inner • Rsnow << ~140AU 3.1mm feature Honda+2009

  10. Subaru+CIAO+AO36 Science Summary • Disk - morphological diversity of young and debris disks • AB Aur: spiral structure in protoplanetary (PP) disk revealed (Fukagawa et al. 2004). • HD142527: new-type of PP disk morphology discovered (Fukagawa et al. 2006) & imaging of ice (Honda et al. 2009). • FN Tau: first PP disk around lowest-mass (0.1 Mo) star directly imaged (Kudo et al. 2007). • Beta Pic: First NIR polarimetry with coronagraph revealed nature of debris disk dust (Tamura et al. 2006). • Binary disks: GG Tau, UY Aur, etc. (Itoh, Hioki, Mayama) • Exoplanets/brown dwarfs - new types of companions? • DH Tau, GQ Lup, EK60: "boundary objects" between planets and brown dwarfs around T Tauri stars discovered (Itoh et al. 2005; Neuhauser et al. 2005; Kuzuhara et al. 2009). • HR8799b directly imaged in 2002 (Fukagawa et al. 2009). • Massive star disk - evidence for formation by accretion • BN, S140IR, IRAS23033, S255IRS1&3, N7538IRS1 : Ubiquity of compact disks around massive revealed with polarimetry (at least up to ~10 Mo) YSOs (Jiang et al. 2005, 2007).

  11. QG Lup B DH Tau B & GQ Lup B & EK60: Planets or Brown Dwarfs ? • Very low-mass companions around T Tauri Stars; • what are they? - If we use age of the central star & companion luminosity - then DH Tau, GQ Lup, EK60 are three of the lowest and nearly planetary-mass companions. - But they are very far from star (>100AU) Itoh, Tamura, Hayashi+05 Neuhauser+05 Luhman+06 Kuzuhara+09 ~15MJ ~10MJ observed w/ CIAO DH Tau B H-band (1.6μm) image

  12. SEEDS main target space with HiCIAO Then, finally "planets" imaged around A stars: HR8799, Fomalhaut, b Pic GEMINI+KECK HST VLT EK60 CT Cha B 1RXSJ1609 B DH Tau B AB Pic B CHXR73 B GQ Lup B Subaru/CIAO in 2002 July

  13. Subaru new coronagraph - HiCIAO Camera Wollaston Prism Nasmyth platform Warm Cold Coronagraph Module High Contrast Optics Module CommonOptics +AO Module IR CameraModule Telescope Hawaii 2-RG2k 2k arrayASIC Sidecar ControllerFiltersCommon+Differential 188 actuators AO Ongoing (2010):ComplementaryMEM DM (3232) Coronagraph Focal masksPupil stops Differential optics(Wollaston prisms - single/double)

  14. HiCIAO Specifications 20" 1.625um 5" 1.600um 1.575um 10" 1.644um

  15. SEEDS – SubaruStrategic Explorationof Exoplanetsand Disks with HiCIAO/AO188 • First "Subaru Strategic Observations" • 120 nights in 5 years on Subaru • Direct imaging and census of giant planets around solar-type stars in the outer regions (a few - 40 AU) • Exploring protoplanetary disks and debris disks for origin of their diversity and evolution at the same radial regions • Direct linking between planets and protoplanetary disks HiCIAO 0.6" mask coronagraph images in ADI mode

  16. SEEDS Current Target Summary RA-DEC H-mag R-mag Sp-Type

  17. SEEDS Members & Stutus 24 institutes 91 members (20 foreigners). Principal Investigator (PI): M. Tamura (NAOJ) Co-PI: T. Usuda, H. Takami (NAOJ) Co-I: (NAOJ) T. Fujiyoshi, O. Guyon, Y. Hayano, M. Iye, M. Ishii, R. Kandori, R. Kawabe, E. Kokubo, T. Kudo, F. Martinache, S. Mayama, S. Miyama, N. Murakami, J. Morino , N. Narita, J. Nishikawa, T. S., Pyo, H. Saito, R. Suzuki, H. Suto, N. Takato, Y. Takeda, H. Terada, N. Ukita, K. Usuda, M. Watanabe; (GUAS) J. Hashimoto, T. Tsukagoshi, (Takahashi, Suenaga); (Univ. of Air) N. Kaifu; (Hokkaido Univ.) N. Baba; (Tohoku Univ.) M. Kitamura, T. Yamada; (Ibaraki Univ.) Y. Okamoto, M. Momose; (Univ. of Tokyo) M. Kuzuhara , H. Makitsubo, M. Ueno; (TITECH) S. Ida, B. Sato; (ISAS) K. Enya, K. Kataza, T. Nakagawa, M. Ootsubo; (Kanagawa Univ.) M. Honda; (Nagoya Univ.) T. Kano, E. Kato, Y. Morishita, A. Nakajima, T. Sumi, H. Yamamoto; (Osaka Univ.) M. Fukagawa, H. Shibai; (NCC) K. Sugitani; (Kyoto Univ.) T. Fukue, S. Inutsuka, T. Muto; (Kobe Univ.) T. Hioki , Y. Itoh, I. Mann, Y. Oasa,; (Princeton) A. Burrows, J. Kasdin, J. Knapp, M. McElwain, A. Moro-Martin, Y. Shen, D. Spergel, E. Turner、R. Vanderbei; (Hawaii)K. Hodapp; (JPL) T. Mastuo, G. Serabyn; (ASIAA)J. Karr, N. Ohashi, M. Takami; (Max Planck) W. Brandner, J. Carson , M. Feldt, M. Goto, T. Henning, M. Janson, C. Thalmann; (Nice) L. Abe; (Hertforshire) T. Gledhill, J. Hough, P. Lucas; (Goddard) C. Grady; (Washington) J. Wisniewski SAC and TAC already approved! SEEDS will start in 09B as soon as PV finished.

  18. SUMMARY • Various results with Subaru CIAO+AO36 have been reviewed: disk diversity, disk ice, nearly planetary mass companions at distance, massive star disks, and polarimetry. • SEEDS will conduct a 5-year legacy survey of ~500 solar-mass and massive young stars for direct imaging of exoplanets and disks in 120 nights with a "all-Japan" team collaborating with foreign researchers. • Our targets consist of 5 categories, each of which includes about ~100 stars (enough for statistics). • We believe that we can image at least a handful of giant (<13 MJ) exoplanets in a few to 10s AU regions and the similar radial regions of many disks in each category. • Various follow-up programs should be organized, including spectroscopy with various instruments and telescopes.

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